AD9822JRZ Analog Devices Inc, AD9822JRZ Datasheet - Page 12

AD9822JRZ

Manufacturer Part Number

AD9822JRZ

Description

IC CCD SIGNAL PROC 14BIT 28-SOIC

Manufacturer

Analog Devices Inc

Type

CCD Signal Processor, 14-Bitr

Datasheet

1.AD9822JRSZRL.pdf (20 pages)

Specifications of AD9822JRZ

Input Type

Logic

Output Type

Logic

Interface

3-Wire Serial

Current - Supply

73mA

Mounting Type

Surface Mount

Package / Case

28-SOIC (7.5mm Width)

Analog Front End Type

CCD/CIS

Analog Front End Category

Video

Interface Type

Serial (3-Wire)

Sample Rate

15MSPS

Input Voltage Range

Operating Supply Voltage (min)

3/4.75V

Operating Supply Voltage (typ)

Operating Supply Voltage (max)

5.25V

Resolution

14b

Supply Current

4/73mA

Number Of Adc's

Power Supply Type

Analog/Digital

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

Package Type

SOIC W

Number Of Channels

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD9822JRZ

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Current page: 12 of 20
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AD9822

FUNCTIONAL DESCRIPTION

The AD9822 can be operated in four different modes: 3-channel

CDS mode, 3-channel SHA mode, 1-channel CDS mode, and

1-channel SHA mode. Each mode is selected by programming

the configuration register through the serial interface. For more

information on CDS or SHA mode operation, see the Circuit

Operation section.

3-CHANNEL CDS MODE

In 3-channel CDS mode, the AD9822 simultaneously samples

the red, green, and blue input voltages from the CCD outputs.

The sampling points for each CDS are controlled by CDSCLK1

and CDSCLK2 (see Figure 10 and Figure 11). CDSCLK1’s

falling edge samples the reference level of the CCD waveform,

and CDSCLK2’s falling edge samples the data level of the CCD

waveform. Each CDS amplifier outputs the difference between

the CCD’s reference and data levels. The output voltage of each

CDS amplifier is then level-shifted by an offset DAC. The

voltages are scaled by the three PGAs before being multiplexed

through the 14-bit ADC. The ADC sequentially samples the

PGA outputs on the falling edges of ADCCLK.

The offset and gain values for the red, green, and blue channels

are programmed using the serial interface. The order in which

the channels are switched through the multiplexer is selected by

programming the MUX register.

Timing for this mode is shown in Figure 3. It is recommended

that the falling edge of CDSCLK2 occur coincident with or

before the rising edge of ADCCLK. However, this is not

required to satisfy the minimum timing constraints. The rising

edge of CDSCLK2 should not occur before the previous falling

edge of ADCCLK, as shown by t

three clock cycles.

3-CHANNEL SHA MODE

In 3-channel SHA mode, the AD9822 simultaneously samples

the red, green, and blue input voltages. The sampling point is

controlled by CDSCLK2. CDSCLK2’s falling edge samples the

input waveforms on each channel. The output voltages from the

three SHAs are modified by the offset DACs and then scaled by

the three PGAs. The outputs of the PGAs are then multiplexed

through the 14-bit ADC. The ADC sequentially samples the

PGA outputs on the falling edges of ADCCLK.

ADC2

. The output data latency is

Rev. B | Page 12 of 20

The input signal is sampled with respect to the voltage applied

to the OFFSET pin (see Figure 12). With the OFFSET pin

grounded, a 0 V input corresponds to the ADC’s zero-scale

output. The OFFSET pin may also be used as a coarse offset

adjust pin. A voltage applied to this pin is subtracted from the

voltages applied to the red, green, and blue inputs in the first

amplifier stage of the AD9822. The input clamp is disabled in

this mode. For more information, see the Circuit Operation

section.

Timing for this mode is shown in Figure 5. CDSCLK1

should be grounded in this mode. Although not required,

it is recommended that the falling edge of CDSCLK2 occur

coincident with or before the rising edge of ADCCLK. The

rising edge of CDSCLK2 should not occur before the previous

falling edge of ADCCLK, as shown by t

latency is three ADCCLK cycles.

The offset and gain values for the red, green, and blue channels

are programmed using the serial interface. The order in which

the channels are switched through the multiplexer is selected by

programming the MUX register.

1-CHANNEL CDS MODE

This mode operates in the same way as the 3-channel CDS

mode. The difference is that the multiplexer remains fixed in

this mode; therefore, only the channel specified in the MUX

Timing for this mode is shown in Figure 4.

1-CHANNEL SHA MODE

This mode operates in the same way as the 3-channel SHA

mode, except the multiplexer remains stationary. Only the

channel specified in the MUX register is processed.

The input signal is sampled with respect to the voltage applied

to the OFFSET pin. With the OFFSET pin grounded, a 0 V input

corresponds to the ADC’s zero-scale output. The OFFSET pin

may also be used as a coarse offset adjust pin. A voltage applied

to this pin is subtracted from the voltages applied to the red,

green, and blue inputs in the first amplifier stage of the AD9822.

The input clamp is disabled in this mode. For more information,

see the Circuit Operation section.

Timing for this mode is shown in Figure 6. CDSCLK1 should be

grounded in this mode of operation.

ADC2

. The output data

AD9822JRZ Analog Devices Inc, AD9822JRZ Datasheet - Page 12

AD9822JRZ

Specifications of AD9822JRZ

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